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NERC | ASSIST: Advanced Self-Powered Systems of Integrated Sensors and Technologies
SSISTADVANCED SELF-POWERED SYSTEMS OF INTEGRATED SENSORS AND TECHNOLOGIES
NSF NANOSYSTEMS ENGINEERING RESEARCH CENTER FOR
1 m(b)
200 nm(c) 200 nm(d)
1 m(a)
VISIONWe envision a paradigm shift in health informatics enabled by wearable nanotechnologies that monitor individual health parameters and environmental exposures. Long-term sensing will enable patients, doctors, and scientists to make direct correlations between health and environmental toxins leading to chronic disease prediction, management and treatment. ASSIST advances will accelerate environmental health research and clinical trials as well as inform environmental policy.
The NSF Nanosystems Engineering Research Center (NERC) for Advanced Self-Powered Systems of Integrated Sensors and Technologies (ASSIST) will develop and employ nano- enabled energy harvesting, energy storage, nanodevices and sensors to create innovative battery-free, body-powered, and wearable health monitoring systems.
MISSIONThe mission of ASSIST is to transform U.S. and global health informatics, electronics, and biomedical engineering industries through development of enabling nanotechnologies for energy harvesting, battery-free energy storage, and ultra-low-power computation and communication, integrated with physiological and ambient nanosensors and biocompatible materials, to empower personal environmental health monitoring and emergency response.
ADVANCED SELF-POWERED SYSTEMS OF INTEGRATED SENSORS AND TECHNOLOGIES
SSISTNSF NANOSYSTEMS ENGINEERING RESEARCH CENTER FOR
2NERC | ASSIST: Advanced Self-Powered Systems of Integrated Sensors and Technologies
+This center of excellence has been funded by the National Science Foundation (NSF) for the next five years and is renewable for an additional five years. The goal of NSF’s Engineering Research Center Program is to create a culture that links scientific discovery to technological innovation through transformational engineered systems research and education to advance technology. These centers make advances in technology and produce engineering graduates who will be creative innovators in a global economy.
NSF Nanosystems Engineering Research Centers are part of the National Nanotechnology Initiative — a government-wide activity designed to ensure that investments are made in a coordinated and timely manner and to accelerate the pace of revolutionary nanotechnology discoveries.
GOALS+ Advance discovery through fundamental knowledge and
innovative solutions in human body energy harvesting and energy storage based on thermoelectrics, piezoelectrics and supercapacitors;
+ Leverage nanostructured materials and structures and intelligent power management strategies to improve energy efficiency at the systems level by several orders of magnitude;
+ Demonstrate wearable, reliable, low power, non-invasive sensors for health and environment and develop robust techniques for heterogeneous and hierarchical systems integration;
+ Design intelligent power management for battery-free sensing, computation, and wireless communication;
+ Develop systems integration requirements, incorporating research on human and social factors, and demonstrate “Exposure Tracking” and “Wellness Tracking” testbeds;
+ Engage medical practitioners and environmental scientists to create a bridge between ASSIST technologies and systems requirements for health and environmental monitoring; and
+ Form partnerships with pre-college institutions to strengthen the STEM pipeline and promote technical literacy and motivation to contribute to solving the Grand Challenges set forth by the National Academy of Engineering.
ASSIST PARTNER INSTITUTIONS
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The ASSIST Center Research ProgramThe self-powered, battery-free feature of ASSIST devices will be enabled by a new class of highly efficient body energy harvesting and storage technologies, ultra-low power computation, low-power sensors, and intelligent power management strategies, all of which work to achieve energy-autonomous operation. There will be two systems testbeds:
EXPOSURE TRACKING Correlation of health and environmental exposures for understanding chronic conditions such as allergies and autoimmune diseases; and
WELLNESS TRACKING Continuous monitoring of individual health for specific purposes (i.e., treatment management, lifestyle habit changes, stroke prediction, emergency search and rescue, triage, and first responder tracking).
Power Conditioning Heterogeneous Integration
IV. INTEGRATED SENSOR NODE DESIGN AND PROTOTYPING
Bioelectronic Skin Interface
TECHNOLOGYELEMENTS
KNOWLEDGE BASE (Fundamental Knowledge)
Thermoelectrics
Piezoelectrics
Energy Storage
Low-Power Analog
Low-Power Data Storage Biochemical Sensing
Optical/Acoustic Sensing
Environmental Sensing
Integration of Nanosensorsw/ CMOS/TFT’s
B A R R I E R SEfficient Body EnergyLow-Power SensingSocial AcceptanceSkin-Sensor InterfaceReliability
B A R R I E R SPower ManagementSecurity and PrivacyEfficacy vs. EnergyManufacturability
FUNDAMENTAL INSIGHTS
Low-Power Data Processing
V. SYSTEMS TESTBEDS THRUST
TECHNOLOGY BASE (Enabling Technologies)
TECHNOLOGY INTEGRATION (Systems)
B A R R I E R SDurability and ReliabilityData ManagementData InterpretationSocial AcceptanceWearability
I. ENERGY HARVESTINGAND STORAGE THRUST
II. LOW-POWERNANOELECTRONICS THRUST
III. WEARABLE NANOSENSORS THRUST
SYSTEM TESTBED:
WELLNESS TRACKINGSYSTEM TESTBED:
EXPOSURE TRACKING
SYSTEM REQUIREM
ENTS
HUM
AN/S
OCIA
L FAC
TORS
PRODUCTS & OUTCOMES
SUBSYSTEM TESTBED:
FLEXIBLE BODY-POWEREDENERGY SUPPLY
REQUIREMENTS
STAKEHOLDERSmedical
environmentalusers
industry
Integration, Wearability, & PackagingTesting and Data Analysis
Multiscale ModelingSystem Design & Optimization Low-Power Computation Low-Power Communication
SUBSYSTEM TESTBED:
CONFORMAL INTEGRATEDSENSORS
SUBSYSTEM TESTBED:
ULTRA-LOW POWERPROCESSING NODE
HEALTH DEVICE
Human and Social FactorsBiocompatible Materials
4NERC | ASSIST: Advanced Self-Powered Systems of Integrated Sensors and Technologies
I. Energy Harvesting and Storage—developing efficient ways to harness energy from the human body or the environment and convert it to usable forms, and store it in ultra-high-density capacitors;
II. Low-Power Nanoelectronics—designing and building low-power electronics and antennae;
III. Wearable Nanosensors—developing low-power nanosensors and wearable interfaces;
IV. Integrated Sensor Node Design and Prototyping—integrating enabling nanotechnologies with intelligent chip power management strategies for computation, wireless communication and sensing; and
V. Systems Testbeds—proving and improving the technologies through hierarchical and heterogeneous integration and testing in a wearable, comfortable, biocompatible, self-powered sensor system (e.g., wrist band, patch and tooth cap).
Crosscutting Activities: + Metrology and Multiscale Modeling + Medical Physiology and Environmental Metrics
ASSIST’s system-driven research will be accomplished through five integrated research thrusts:
FESEM and optical microscope images showing III-V tiles before and after deterministic assembly.
Lead zirconate titanate piezoelectric microtubes.
Heterogeneous integration of beyond-CMOS and CMOS components for ASSIST applications.
Schematic of ASSIST wristband for exposure and wellness tracking.
CMOS chip incorporating various components of ultra-low-power sensor system.
ASSIST technologies will seamlessly monitor health status and environmental exposure.
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Exposure Track—for correlation of health and environmental exposures to improve understanding of chronic conditions such as asthma, allergies, and autoimmune diseases; and
Wellness Track—for continuous monitoring of individual health for specific purposes such as disease and treatment management, fitness monitoring, emergency search and rescue, or first responder monitoring.
Critical to the impact of ASSIST’s wearable, self-powered sensing and communication devices are the medical, environmental exposure, and social acceptance aspects of the Center’s research. ASSIST engineers developing innovative technologies will interact with medical professionals and biocompatible materials experts, as well as environmental and social scientists, to integrate all aspects of systems design and development in two Systems Testbeds:
Medical, Environmental, and Social Aspects
Four subthrust teams will assure integration of medical and exposure science, biocompatibility, and analytics with technology development in each testbed:
+ Human and Social Factors: This team of medical professionals, environmental researchers, and social psychologists will identify clinical needs, specific physiological measures, social acceptance barriers, and environmental metrics to guide development of novel sensors.
+ Biocompatible Materials: Experts in biomedical engineering, human exposure science, toxicology, and biobehavioral health, environmental toxin causal relationships will carry out sensor-to-skin interface studies.
+ Testing and Data Analysis: Computer and environmental scientists will carry out key activities related to data analytics and pattern recognition to advance toward a new era of data-driven medicine tying environmental cause to health effect.
+ Integration, Wearability and Packaging: Systems integration engineers, textiles engineers, and packaging experts will work with technical thrusts to integrate key ASSIST technologies into wearable monitoring platforms. ASSIST will be guided by an engineered systems approach integrating research outputs in testbeds that will iteratively refine specifications and requirements for high-impact human use. ASSIST testbeds will leverage human applications laboratories to undertake Phase I and IIa testing at the University of North Carolina School of Medicine, NC State University’s College of Textiles, the U.S. Environmental Protection Agency, and other national centers of excellence.
6NERC | ASSIST: Advanced Self-Powered Systems of Integrated Sensors and Technologies
ASSIST Advisory Panels:+ Medical/Environmental Roundtable This panel, chaired by the Medical Director, provides a mechanism
for medical and environmental advisors to meet in an open format with thrust leaders, key faculty, and students on a quarterly basis to provide feedback and perspectives to ASSIST strategic planning. Its members will include physicians in various specialties and researchers representing medical schools, hospitals and medical centers, environmental health agencies, and disease-focused research centers.
+ Scientific Advisory Board Internationally known experts in technical, medical, environmental
health, social, and education fields related to ASSIST will meet annually to identify major NERC research issues and to help guide the Center’s research agenda.
+ Industry/Practitioner Advisory Board This panel (described on the following page) will include ASSIST
industry and practitioner members who will meet quarterly to advise the Center’s leadership team on strategy and serve as translational and commercialization partners for ASSIST technologies.
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Translational research partners in industry as well as public health professionals will be engaged at every level of technology development, informing systems requirements and human/social factors. The Center’s success will be built upon partnerships with large and small companies, medical and environmental health research practitioners, and entrepreneurs.
ASSIST will link transformational nanosystems engineering to social and commercial needs through an innovation ecosystem that symbiotically engages industry with faculty, students and entrepreneurs in all phases of the innovation process. The value we create will enhance U.S. industrial competitiveness by helping faculty craft useful research questions, helping industry partners improve innovation practices, training cohorts of students to link scientific discovery to commercial breakthroughs, and stimulating start-up ventures and job creation.
The ASSIST Innovation Ecosystem and Industry Program
An Industry/Practitioner Advisory Board will:+ Help guide the Center’s research agenda,+ Review Center reports and operating budgets, + Make policy recommendations,+ Review internal proposals for research funding, + Recommend priorities to the Director and Leadership Team,+ Recommend projects of mutual interest to be funded from membership fees, and+ Authorize Intellectual Property Protection Fund support for provisional patents.
The ASSIST team has deep experience with innovation and commercialization. Its innovation partners include technology transfer offices, local/state government offices, venture capital firms, and non-profit entrepreneurial assistance and economic development organizations. Translational research will team NERC faculty and students with start-up companies or other small firms who license ASSIST technologies.
All industry members can take advantage of:+ Leveraged research funding, combining the resources of several university teams,
other related research grants, and pooled industry member funding.
+ Early access to ASSIST inventions.
+ ASSIST Industry Practitioner Program: R&D employees in member companies will be encouraged to work on ASSIST research project teams and may jointly own patents.
+ Priority access to ASSIST students and graduates: Member companies may work with student researchers as interns to identify and hire our best graduates.
+ Professional short courses: Free or discounted access to all newly developed ASSIST on-site and distance education short courses.
8NERC | ASSIST: Advanced Self-Powered Systems of Integrated Sensors and Technologies
Entrepreneurial companies can take advantage of the Center’s network of Innovation Partners:
+ Venture Capital Firms: Several venture capital firms have committed to affiliation with the Center, providing entrepreneurial companies opportunities for advice, traditional venture funding, grants, and loans.
+ SBIR/STTR Support: Small Business Technology Development Centers in partner states will help small business members exploit federal SBIR/STTR funding through customized training workshops and advising for grant proposal teams.
+ SBIR/STTR Matching Funds: Members who receive SBIR/STTR awards may submit requests to the NC Board of Science and Technology’s SBIR/STTR Matching Funds program, which matches 100% of Phase I awards (to a maximum of $100,000) to bridge the gap between Phase I and Phase II.
+ Technology Incubators: Office and laboratory space (subject to availability) for ASSIST spin-off companies in technology incubators on partner university campuses, in addition to short-term consulting by technical, academic, managerial, and business professionals.
NERC Membership Benefits
Full Associate Affiliate In-Kind Contributions*
Membership Fees $30,000/yr $10,000/yr $2,000/yrDonated Equipment, Materials, or Services
Seat on Industry/Practitioner Advisory Board
X X
Non-exclusive, royalty-free IP rights for internal use
X X
Option to negotiate for commercial license to Center IP
First Second Third Third
Option to directly sponsor research X X X X
Access to all non-proprietary information
Unlimited Unlimited Unlimited Unlimited
Industry Practitioner Program X X X X
Priority access to student interns X X X X
Access to Center testbed facilities X X
Networking with venture capital firms
X X X X
Innovation partner services, incl. SBIR/STTR assistance
X X X X
Free/discounted access to conferences, workshops, etc.
X X X X
*Memberships must start with cash but can be augmented by in-kind contributions.
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The ASSIST Center Education ProgramASSIST will develop adaptive and innovative graduate and undergraduate students through an interactive community culture of engineering research and education integrating mentoring; rigorous coursework; an aggressive innovation ecosystem; professional development training; international collaboration; leadership experience; gender, cultural, and racial diversity; and high ethical standards.
+ Train graduate students capable of providing leadership in nanosystems engineering through a new graduate certificate program.
+ Customize a portfolio of professional development experiences for each NERC-supported graduate student to provide knowledge, skills, and experience for success in an innovation-driven global society.
+ Strategically motivate a diverse group of students to pursue graduate study and careers in nanosystems engineering.
+ Train undergraduates in the fundamentals of nanoscale materials, devices, and systems for a broad variety of applications through a new undergraduate concentration in nanosystems engineering.
+ Fund Research Experiences for Undergraduates (REUs) to provide meaningful participation in ASSIST research and innovation activities, mentored by center faculty, industry practitioners, and graduate students.
+ Train future entrepreneurs with skills in leadership, technology-based entrepreneurship, new product development, and venture capitalization.
10NERC | ASSIST: Advanced Self-Powered Systems of Integrated Sensors and Technologies
The ASSIST Center Pre-college Education Outreach ProgramThe ASSIST Center has developed strategic outreach partnerships with 11 middle and high schools to enhance teachers’ engineering content knowledge and teaching methods, bring nanosystems engineering concepts into the classroom, involve high school students in ASSIST research, and thereby increase the diversity and enrollment of domestic students in university engineering degree programs.
+ Wake County STEM Early College High School, Raleigh, NC+ Southeast Raleigh High School, Raleigh, NC+ Centennial Campus Magnet Middle School, Raleigh, NC+ Carroll Middle School, Raleigh, NC+ Buford Middle School, Charlottesville, VA+ Charlottesville High School, Charlottesville, VA+ Coral Park High School, Miami, FL+ Rockaway Middle School, Miami, FL+ The Grier School, Tyrone, PA+ Tyrone Area Middle School, Tyrone, PA+ Tyrone Area High School, Tyrone, PA
Through these partnerships, the Center will:
+ Develop integrated pre-college teams (including graduate and undergraduate students, pre-service STEM student teachers, postdocs, and faculty to work with principals, teachers, and students) to stimulate student interest in engineering careers and increase diversity of U.S. college students in engineering;
+ Provide teacher workshops and Research Experiences for Teachers (RETs) to enhance teachers’ knowledge of engineering/nanotechnology concepts and careers as well as their ability to incorporate engineering activities in the classroom using the Big Ideas of Science and the Grand Challenges in Engineering, with a focus on tools of scientific discovery and health informatics;
+ Engage ASSIST students in pre-college outreach activities to improve their ability to bring the excitement of engineering to younger students;
+ Fund a Young Scholars Program that pairs promising high school students with university student mentors for summer research experiences; and
+ Engage middle and high school students in engineering summer camps, nano clubs, and NanoDays on university campuses to encourage increased interest and diversity in science and engineering majors and careers.
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The ASSIST Center FacilitiesThe Center’s headquarters will be located in the Monteith Engineering Research Center (MRC) on NC State University’s Centennial Campus—co-locating it with electrical and computer engineering laboratories and clean rooms, including the NCSU Nanofabrication Facility and the Analytical Instrumentation Facility. In the adjacent College of Textiles, testbed facilities will include the Textile Protection and Comfort Center with its comprehensive infrastructure of equipment and personnel to address the need for integrated investigations on all aspects of the protection and comfort of clothing and wearable devices.
High-speed, high-bandwidth cyberinfrastructure connecting all campuses will facilitate collaboration and communication via videoconference, teleconference, computing, and online courses. The NERC will utilize the NCN nanoHUB web-based resource for research, education, and collaboration in nanotechnology.
+ NORTH CAROLINA STATE UNIVERSITY NCSU Nanofabrication Facility Analytical Instrumentation Facility Atomic Resolution Electron Microscopy Center Photonics Laboratory Molecular Beam Epitaxy System Nano-extended Textiles Research Laboratory Cell Mechanics Laboratory Textile Protection and Comfort Center
+ PENN STATE UNIVERSITY Penn State Nanofabrication Laboratory Keck Smart Materials Integration Laboratory Materials Characterization Laboratory National Nanotechnology Infrastructure Network Node
+ UNIVERSITY OF VIRGINIA Integrated Circuit Design and Test Laboratory MicroFabrication Laboratory Millimeter-Wave Measurement Laboratory
+ FLORIDA INTERNATIONAL LABORATORY Nanomechanics and Nanotribology Laboratory Nanofabrication Facility: Advanced Materials Engineering Research Institute
+ UNIVERSITY OF NORTH CAROLINA AT CHAPEL HILL NC Translational and Clinical Sciences Institute Center for Environmental Medicine, Asthma and Lung Biology
12NERC | ASSIST: Advanced Self-Powered Systems of Integrated Sensors and TechnologiesNERC | ASSIST: Advanced Self-Powered Systems of Integrated Sensors and Technologies
SSISTASSIST’s Transformational ImpactThe ASSIST team is passionate about developing new, integrated technologies that will enable a new era of data-driven medicine, tying cause to effect, and permitting revolutionary and affordable advances in the quality of healthcare. We aim to:
+ Empower patients and doctors with relevant and rapid individual health data leading to more rapid diagnoses, optimized treatments and post-treatment decisions, reduced hospital stays, and improved quality of life.
+ Enable more accurate correlations between health and individual environmental exposures to inform both healthcare and environmental policy.
+ Arm doctors with safe alternatives to unnecessary hospitalizations and expensive medical tests to help address rising healthcare costs.
+ Excite a new and diverse generation of engineers for a globally aware society ready to address grand challenges in health and informatics.
+ Produce engineering graduates who will be creative U.S. innovators and entrepreneurs who will stimulate U.S. entrepreneurship, growth, and jobs in nanotechnology and high-tech manufacturing.
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DEPUTY DIRECTORDr. John Muth Professor of Electrical and Computer Engineering NC State University
RESEARCH DIRECTORDr. Thomas Jackson Kirby Professor of Electrical Engineering Penn State University
MEDICAL DIRECTORDr. David Peden, M.D. Senior Associate Dean for Translational ResearchUNC School of Medicine
PARTNER CAMPUS DIRECTORSDr. John Lach Professor and Head of Electrical and Computer Engineering University of Virginia
Dr. Thomas Jackson Kirby Professor of Electrical Engineering Penn State University
Dr. Shekhar Bhansali Professor and Head Department of Electrical and Computer Engineering Florida International University
EDUCATION AND DIVERSITY DIRECTORDr. Mehmet Ozturk Professor of Electrical and Computer Engineering and Director, NCSU Nanofabrication Facility NC State University
PRE-COLLEGE EDUCATION DIRECTORDr. Gail Jones Professor of Math, Science and Technology Education NC State University
INDUSTRY COLLABORATION AND INNOVATION DIRECTORDr. Ted Baker Associate Professor of Management, Innovation and Commercialization NC State University
THRUST IENERGY HARVESTING AND STORAGE Leader: Dr. Susan Trolier-McKinstry Professor of Ceramic Science and Engineering; Director, Keck Smart Materials Integration Laboratory Penn State University
Thermoelectrics Subthrust Leader: Dr. Mehmet Ozturk Professor of Electrical and Computer Engineering and Director, NCSU Nanofabrication Facility NC State University
Piezoelectrics Subthrust Leader: Dr. Susan Trolier-McKinstry Professor of Ceramic Science and Engineering; Director, Keck Smart Materials Integration Laboratory Penn State University
Energy Storage Subthrust Leader: Dr. Jon-Paul Maria Professor of Materials Science and Engineering NC State University
Power Conditioning Subthrust Leader: Dr. Christopher Rahn Professor of Mechanical Engineering Penn State University
THRUST II LOW-POWER NANOELECTRONICS Leader: Dr. Suman Datta Monkowski Professor of Electrical Engineering Penn State University
Low-Power Data Processing Subthrust Leader: Dr. Suman Datta Monkowski Professor of Electrical Engineering Penn State University
Low-Power Data Storage Subthrust Leader: Dr. Suman Datta Monkowski Professor of Electrical Engineering Penn State University
Low-Power Analog Subthrust Leader: Dr. Douglas Werner McCain Professor of Electrical Engineering Penn State University
Heterogeneous Integration Subthrust Leader: Dr. Theresa Mayer Distinguished Professor of Electrical Engineering Penn State University
The ASSIST Center Leadership Team
DR. SUSAN TROLIER-McKINSTRY
DR. JOHN LACH
DR. DAVID PEDEN
DR. JOHN MUTH
DR. SUMAN DATTA
DR. MEHMET OZTURK
CENTER DIRECTORDr. Veena Misra Professor of Electrical and Computer Engineering NC State University
DR. THOMAS JACKSON
14NERC | ASSIST: Advanced Self-Powered Systems of Integrated Sensors and Technologies
THRUST III WEARABLE NANOSENSORS Co-Leader: Dr. John Muth Professor of Electrical and Computer Engineering NC State University
Co-Leader: Dr. Shekhar Bhansali Professor and Head Department of Electrical and Computer Engineering Florida International University
Bioelectronic Skin Interface Subthrust Leader: Dr. John Muth Professor of Electrical and Computer Engineering NC State University
Biochemical Sensing Subthrust Leader: Dr. Shekhar Bhansali Professor and Head Department of Electrical and Computer Engineering Florida International University
Optical/Acoustic Sensing Subthrust Leader: Dr. Alper Bozkurt Assistant Professor of Electrical and Computer Engineering NC State University
Environmental Sensing Subthrust Leader: John Muth Professor of Electrical and Computer Engineering NC State University
Nanosensor Integration with CMOS/TFTs Subthrust Leader: Dr. Theresa Mayer Professor of Electrical Engineering Penn State University
THRUST IV ASSIST INTEGRATED SENSOR NODE DESIGN AND PROTOTYPING Leader: Dr. Benton Calhoun Associate Professor of Electrical and Computer Engineering University of Virginia
System Design and Optimization Subthrust Leader: Dr. Benton Calhoun Associate Professor of Electrical and Computer Engineering University of Virginia
Low-Power Computation Subthrust Leader: Dr. Benton Calhoun Associate Professor of Electrical and Computer Engineering University of Virginia
Low-Power Communication Subthrust Leader: Dr. Brian Floyd Associate Professor of Electrical and Computer Engineering NC State University
Multiscale Modeling Subthrust: Leader: Dr. John Lach Professor and Head of Electrical and Computer Engineering University of Virginia
THRUST VASSIST SYSTEMS Co-Leader: Dr. Paul Franzon Professor of Electrical and Computer Engineering NC State University
Co-Leader: Dr. John LachProfessor and Head of Electrical and Computer Engineering University of Virginia
Human and Social Factors Subthrust Leader: Dr. Michael Cobb Associate Professor of Public and International Affairs NC State University
Testing and Data Analysis Subthrust Leader: Dr. Hamid Krim Professor of Electrical and Computer Engineering NC State University
Integration, Wearability, and Packaging Subthrust Leader: Dr. Paul Franzon Professor of Electrical and Computer Engineering NC State UniversityBiocompatible Materials SubthrustLeader: Dr. Marian McCordAssociate Professor of Biomedical Engineering and Textile Engineering, Chemistry and ScienceNC State University
CROSSCUTTING METROLOGY AND MULTISCALE MODELING Leader: Dr. Elizabeth Dickey Professor of Materials Science and Engineering NC State University
CROSSCUTTING MEDICAL PHYSIOLOGY AND ENVIRONMENTAL METRICS Co-Leader: Dr. David Peden, M.D. Senior Associate Dean for Translational Research UNC School of Medicine
Co-Leader: Dr. John LachProfessor and Head of Electrical and Computer Engineering University of Virginia
DR. SHEKHAR BHANSALI
DR. GAIL JONES
DR. BENTON CALHOUN
DR. TED BAKER DR. ELIZABETH DICKEY
DR. PAUL FRANZON
assist.ncsu.edu
NSF Nanosystems Engineering Research Center for Advanced Self-Powered Systems of Integrated Sensors and Technologies
North Carolina State University Campus Box 7564 | Monteith Engineering Research Center 2410 Campus Shore Drive | Raleigh, NC 27695-7564 [email protected] | phone: 919.515.7356 | fax: 919.515.5055
SSIST
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assist.ncsu.edu